Safety & Risk Prevention

Transcription

1 TECHNO TRAIN POWER

2 Safety & Risk Prevention 1.01 Electrical Risk prevention Tool 1.02 Electrical safety for non-electricians 1.03 Electrical safety for electricians working at Low Voltage 1.04 Electrical safety for electricians working at Low, medium and high Voltage 1.05 Safety in explosive atmospheres for workers 1.06 Safety in explosive atmospheres for managers and supervisors

3 Electrical Risk prevention Tool Safety & Risk Prevention - 4 Hours Dates & Place: Anytime, anywhere as long as you have internet access UNPSRP001 Refresh knowledge on the fundamentals of electrical risk Learn a minimum number of common international rules concerning electrical risk prevention Go through a quick and efficient self-assessment on these topics Module 1: Learn about electrical risk Module 2: Learn how to prevent electrical risk Module 3: Comply with safety procedures (to lock out tag out) Self-assessment Various interactive learning activities Summaries Assessments are readily available but can be customized to your needs, upon request Easy user navigation Management Any person and company working in an environment with electrical risks Managers whose teams work in such environments Health & Safety Managers TRAINING: S1001 (100% Theoretical) Next Step: F1010, F1020, F1030 Most of the common international rules are dealt with in this training Up-to-date contents according to current active regulations ed by international safety experts Training accessible 24/7 3/ Technical Training Manual

4 Electrical safety for Non-electricians Safety & Risk Prevention - 2 Days UNPSRP002 Acquire a basic knowledge of working with electricity, so that the trainees are aware of the dangers that they may encounter in an electrical environment. Act and react according to the working environment Non-electricity specialist who has basic access to electricity sites Prerequisites: No technical background required TRAINING: F1010 (20% Practical, 80% theoretical) Next Step: S1001 Electricity and its benefits, use and dangers How do we protect ourselves against potential danger? Examples of accidents that have happened and how they could have been avoided The safety rules for electrical work Participant evaluation for certification Half a day dedicated to practical work Upon completion of this course, participants will receive a certificate showing the electrical safety level they have achieved 4/ Technical Training Manual

5 Safety & Risk Prevention - Electrical safety for electricians working at Low Voltage 3 Days UNPSRP003 Work safely when carrying out Low Voltage electrical work such as installation and measurement Electricity and its benefits, use and dangers How do we protect ourselves against potential danger? Working with Low Voltage electrical safety: general instructions Practical simulation of potential dangers/accidents Testing Low Voltage electricity Participant evaluation for certification Workers who have a direct involvement in Low Voltage electrical work Prerequisites: Basic knowledge of electricity and LV electrical experience TRAINING: F1020 (30% Practical, 70% Theoretical) Next Step: S1001 A day dedicated to practical work Role-play exercises demonstrating the importance of safe conduct Upon completion of this course, participants will receive a certificate showing the electrical safety level they have achieved 5/ Technical Training Manual

6 Safety & Risk Prevention - Electrical safety for electricians working at Low, medium & high Voltage 4 Days Dates & Place: Anytime, anywhere as long as you have internet access UNPSRP004 Evaluate the danger of electricity Execute some specific operations on LV & HV installations in safe conditions Electricity and its benefits, use and dangers How do we protect ourselves against the potential danger? General instructions for working with Low, Medium and High Voltage electrical safety Practical simulation of potential dangers/accidents Testing electricity Low and Medium Voltages Participant evaluation for certification Electrical staff working in Low and High Voltage (nonmanagerial electrician and/or work supervisor and/or lockout Supervisor and/or operation supervisor) Prerequisites: Basic knowledge in electricity and LV, MV and HV electrical experience. TRAINING: F1030 (40% Practical, 60% Theoretical) Next Step: S1001 During the training session, interactivity between a small group of trainees allows a smooth evaluation of the trainees progression A day and a half dedicated to practical work Upon completion of this course, participants will receive a certificate showing the electrical safety level they have achieved 6/ Technical Training Manual

7 Safety in explosive atmospheres for workers Safety & Risk Prevention Days Dates & Place: Anytime, anywhere as long as you have internet access UNPSRP005 Gain or increase knowledge required for the design, achievement and maintenance of electrical and mechanical installations (equipment) in (ATEX) potentially Explosive Atmospheres, according to the required standards Ensure that equipment repair does not downgrade its safety level Provide traceability of repair The Explosive Atmosphere (ATEX) approach Generalities on Explosive Atmospheres (ATEX), Gas and Dust The mechanism of an explosion Comparison between different applicable standards (IECEx, CENELEC, NEC500 and 505) Exploding risk area Classification (Gas and Dust) The different types of protection for electrical ATEX equipment (d, m, ia, ib ) The different types of protection for mechanical ATEX equipment (d, c, k ) The marking of the equipment Incidences for use and maintenance The intervention in ATEX Hazardous Areas Initial Assessment by questionnaire Exercises (marking plate of the equipment reading, appropriateness (suitability) of the equipment, initial Assessment by questionnaire) Management Persons supervising installation, operation or maintenance on a hazardous area installation concerned by the risks of Explosive Atmosphere (ATEX), under supervision Prerequisites: Electrical and mechanical fundamentals TRAINING: F5020 (20% Practical, 80% Theoretical) Next Step: F5030 Theoretical training and exercises with an INERIS* certified trainer Exchange of experience and acquiring the right behavior Evaluation by questionnaire, and Competence certificate issued by INERIS 7/ Technical Training Manual

8 Safety & Risk Prevention - Safety in explosive atmospheres for managers and supervisors 4 Days Management UNPSRP006 Gain or increase knowledge required for the design, achievement and maintenance of electrical and mechanical installations (equipment) in (ATEX) potentially Explosive Atmospheres, according to the required standards Ensure the ATEX safety welcoming at site Ensure that equipment repair does not downgrade its safety level Make all operators aware of their responsibilities Supervise workers in an explosive atmosphere, and ensure the traceability of repairs Issue the permit to work in an explosive atmosphere Person technically responsible for an installation in an explosive area (ATEX): Engineer Project and design manager Supervisor responsible for workers in an explosive area Prerequisites: Electrical and mechanical fundamentals TRAINING: F5030 (30% Practical, 70% Theoretical) Next Step: The Explosive Atmosphere (ATEX) approach Generalities on Explosive Atmospheres (ATEX), Gas and Dust The mechanism of an explosion Comparison between different applicable standards (IECEx, CENELEC, NEC500 and 505) Exploding risk area Classification (Gas and Dust) Risk analysis according to area and equipment The different types of protection for electrical ATEX equipment (d, m, ia, ib ) The different types of protection for mechanical ATEX equipment (d, c, k ) The rules applicable to gas (G) ATEX equipment The rules applicable to dust (D) ATEX equipment The rules for design, achievement, and maintenance of Installations in Explosive Atmospheres The marking of the equipment Incidences for use and maintenance The intervention in ATEX Hazardous Areas Worker health and safety protection from explosive atmosphere hazards Exercises (calculation of intrinsic loop, appropriateness (suitability) of the equipment, area classification analysis, marking plate of the equipment reading) Initial Assessment by questionnaire Theoretical training and exercises with an INERIS* certified trainer Exchange of experience and acquiring the right behavior Practical test performed in the INERIS laboratories (60 kms north of Paris) with several explosion tests in gas, dust, and electrostatic conditions Evaluation by questionnaire, and Competence certificate issued by INERIS 8/ Technical Training Manual

9 Technical Fundamentals 2.01 Electrical Energy Essentials 2.02 System Engineering 2.03 Voltage Stability 2.04 Fundamentals of System Protection 2.05 Grid Connection Protection 2.06 Medium Voltage industrial installation design 2.07 Fundamentals of power Transformers 2.08 Instrument Transformers 2.09 Digital Instrument Transformers (DIT) 2.10 Fundamentals of the High Voltage Circuit Breaker 2.11 Basic HVDC Training 2.12 Apps Industry power system 2.13 APPS Utility System Protection 2.14 APPS Part 2 Application of Protective Relaying to Transmission systems 2.15 APPS Part 3 Over current Grading and Commissioning 2.16 APPS T01 Introduction to the Protection Scheme Philosophy for MV and HV Networks 2.17 APPS Utility Transmission System Protection Basic 2.18 APPS - Utility Transmission System Protection Advanced 2.19 APPS - Utility Transmission System Protection Expert 2.20 Network Essentials 2.21 First Line system maintenance 2.22 Situation Awareness in Control Centers for Real-Time Operations of Systems and Markets 2.23 Introduction to Smart Grid 2.24 Control Center Architecture 2.25 Telecommunications in a Network

10 Electrical Energy Essentials Technical Fundamentals - 2 Days Management Management and staff who will benefit from knowledge of power systems in the electric energy domain UNPTF001 Give an overview of the electrical power network from its generation to its distribution (primary functions of power system components) Explain some aspects of regulation, deregulation, trading, safety and environment of the electrical energy industry Describe the principles involved in operation of interconnected power systems, economic considerations for interchanging power between systems, control methods, and reliability considerations Prerequisites: Electrical and mechanical fundamentals TRAINING: GEE002 (100% Theoretical) Next Step: Discussions on the electrical energy industry, including renewable energy The societal impact of blackouts The environmental impact of generating electricity and its economic considerations Aspects of policies and their implications In-depth look at generation, transmission, distribution and their interdependencies Upon completion of this course, participants will be able to understand the high-level power system components and interactions within the electric energy industry Managers are expected to be comfortably conversant in this industry and be better equipped to make more informed decisions Staff members completing this course are expected to have the required knowledge to better contribute and be more informed in workplace situations 10/ Technical Training Manual

11 System Engineering Technical Fundamentals - 2 Days Dates & Place: Anytime, anywhere as long as you have internet access Management UNPTF002 Refresh and update the trainees knowledge about electrical engineering Basic knowledge of electrical engineering Prerequisites: Electrical and mechanical fundamentals TRAINING: GEE004 (100% Theoretical) Next Step: APPS Basic power systems technology Three-phase current network Capital assets characteristics Energy transference in the three-phase current network Short-circuit Physical phenomena Upon completion of this course, participants will be able to understand the high-level power system components and interactions within the electric energy industry Participants will have the required knowledge to really improve their contribution in their work 11/ Technical Training Manual

12 Voltage Stability Technical Fundamentals Days Management Management and staff who will benefit from having a highlevel knowledge of situation awareness in control centers UNPTF003 Give a comprehensive overview of voltage stability problems Teach methods to effectively address these problems in the planning, design and operation of electric power systems TRAINING: GEE007 (100% Theoretical) Next Step: Introduction and basic concepts Definition and classification of power system stability Conceptual relationship between power system stability, security and reliability Review of the concepts of active power and reactive power An elementary view of the voltage stability phenomenon Equipment characteristics impacting voltage stability Synchronous machines Excitation systems AC Transmission system loads Control of reactive power and voltage Control objectives Production and absorption of reactive power Methods of voltage control Principles of reactive compensation in transmission systems Static and dynamic compensators Typical scenarios of voltage instability Long-term voltage instability Short-term voltage instability Upon completion of this course, participants will learn in detail the methods of voltage control and reactive planning in transmission networks 12/ Technical Training Manual

13 Fundamentals of System Protection Technical Fundamentals - 2 Days Management UNPTF004 Provide a basic understanding of the application of protection to systems and plant, such as lines, transformers, generators & motors Protection fundamentals Basic application principles Introduction to over - current protection Differential protection Generator protection People with little or no previous experience in protection Prerequisites: Persons attending this course must have a basic understanding in electrical theory TRAINING: PROG001 (100% Theoretical) Next Step: PROG004 Upon completion of this course, the participants will be aware of the protection principles needed to understand system requirements Gives participants the confidence to maintain systems This course suits all profiles with a minimum of electrical theory 13/ Technical Training Manual

14 Grid Connection Protection Technical Fundamentals - 1 Day UNPTF005 Understand grid connection protection (G59), environment and context Grid connection protection overview Protection relays: define the main protection relays and their settings Alstom Grid solution presentation Introduction to grid connection protection MiCOM P341 MiCOM P341 basic commissioning procedures and operation Engineers/ technicians, commissioning/ Test engineers Prerequisites: Basic understanding of electrical principles and associated mathematics TRAINING: PROG001 (50% Practical, 50% Theoretical) Next Step: PROG004 Upon completion of this course, participants will have a better understanding of grid connection & is landing protection relays and their settings Will get ideas on basic commissioning procedures and operation of grid interconnection relays 14/ Technical Training Manual

15 Technical Fundamentals - Medium Voltage industrial installation design 3-4 Days UNPTF006 a MV electrical installation Estimate the value of short circuit currents Select the appropriate switchgear Select the appropriate electrical ductwork Stages in the design of an installation standards List of equipment used, power balance selection of power supplies: normal, substitute emergency Selection of neutral point connection Characteristics of current-using equipment Motors Characteristics of various power sources Definitions of the switchgear, symbols Distribution networks, transformers, generator set Estimation of short circuit currents Three-phase short-circuit at one point on the network Two-phase short-circuit Selection of switchgear Isolator switch, load break switch, contactors fuses, Circuit breakers Selection of wiring systems Steady state operating conditions, transient operating conditions Industrial networks Connection to the grid, compensation for reactive energy Structures, neutral point connection, earthing faults Protection systems, selectivity: current, time delay and logic relays Protection of power transformers Case study Engineers and technicians involved in the design, study, modification, maintenance and operation of MV industrial installations Prerequisites: Qualified technician, 2-year university technological diploma or completion TRAINING: A2112 (40% Study case, 60% Theoretical) Next Step: D2102 Customize the solutions for troubleshooting (malfunctioning and/or fault mode) and modifications or extensions 15/ Technical Training Manual

16 Fundamentals of power Transformers Technical Fundamentals - 3 Days UNPTF007 Become conversant in the fundamentals of transformer design, and their application in transmission systems and industrial applications Basic Transformer Theory Principles, Core, Windings, Losses Transformer cooling Cooling modes Short circuit withstand Stresses and failure modes Voltage Regulation OLTC, OCTC, Vacuum interrupter tap-changers Transformer connections Delta, Star, Zigzag Transformer construction Tanks, Conservators, Bushings, Cable boxes, Current Transformers, Dehydrating Breathers Transformer protection Buchholz relay, PRV, Sudden pressure relay, OTI, WTI Transformer Testing Factory and Field testings Transformer oil Oil quality tests DGA Manufacturing & assembling process Core, Windings, Bushings and the other accessory assembling Special Transformers Phase Shifting Transformers HVDC Transformers Rectifier and Furnace Transformers Shunt and Smoothing Reactors Trackside Transformers Continuously Emergency Rated (CER) Engineers involved in the design and application of transmission networks Graduate engineers entering the industry Prerequisites: S3601, Working in a T&D environment, and/or with a degree in Electrical Engineering or equivalent TRAINING: A4213 (100% Theoretical) Next Step: TRIP066 The participants should gain from the course an increased level of knowledge in the design and application of transformers in both transmission and industrial application A wide overview of what power transformers are today and what the future will be through new solutions One year access to S3601 e-learning training programs accessible 24/7 through our LMS (if required) 16/ Technical Training Manual

17 Instrument Transformers Technical Fundamentals - 1 Day UNPTF008 Understand instrument transformers, their technology and environment Optimize their integration in the HV and MV networks Specify and select the appropriate solutions in instrument transformers Consulting and protection engineers and technicians Project managers and field technicians Prerequisites: S3601, Electro Technical Fundamentals And Grid Protection Training: A5312 (20% Study Case, 80% Theoretical) Next Step: M108/ 15313/ S3601 Different types of instrument transformers Current Transformers CT Voltage Transformers VT Combined Metering Units CMU Capacitor Voltage Transformer CVT Insulation techniques Paper-oil insulation Resin insulation SF6 insulation Design parameters Current transformer: nominal ratio, short circuit current, accuracy class and burden, transient performance Inductive type voltage transformer: nominal ratio, accuracy class and burden, thermal power Capacitor voltage transformer: nominal ratio, accuracy class and burden, thermal power Special site & environmental conditions Commissioning and maintenance Instructions for erection & commissioning, recommendations for maintenance, accessories Whatever the size or design, current transformers, voltage transformers, and combined current-voltage transformers are the essential link to the safety of your network, and this training will open up their secrets 17/ Technical Training Manual

18 Digital Instrument Transformers (DIT) Technical Fundamentals - 1 Day UNPTF009 Understand Digital Instrument Transformers, their technology and environment Know on product s main characteristics and advantages Discover possible applications in existing or future networks Consulting and protection engineers Project managers and field technicians Prerequisites: a5312, s3601, electro technical fundamentals and grid protection. Training: m108/ a5313 (100% theoretical) Next step: s3601 Digital Technology principles of DIT and new level of accuracy standard protocols for communication between IT & electronic device Technology comparison with conventional equipment Perspective for HV and UHV networks DIT solutions commercially available to meet new networks challenges NXCT Optical Current Transformer NXCM Combined Metering Unit NXCT-F3 Flexible Optical Current Transformer Merging Unit The reduced size and weight are attractive benefits over conventional instrument transformers Easy placement in compact substations or in retrofit applications Its broad dynamic range makes it particularly suited for applications where extreme accuracy at both full power output and station service draw is demanded It is the future ready solution for HV and UHV networks, with a complete new approach of the instrument transformers use 18/ Technical Training Manual

19 Fundamentals of the High Voltage Circuit Breaker Technical Fundamentals Days UNPTF010 Become conversant in the fundamentals of High Voltage Circuit breakers Know the main elements of switchgear design, construction and testing Engineers involved in the design and application of transmission networks and graduate engineers entering the industry Prerequisites: working in a t&d environment it is recommended to have a degree in electrical engineering or equivalent. Training: a5503 (100% theoretical) Next step: s3200 Types of disturbances on power systems short-circuit Theory circuit interruption Symmetrical/asymmetrical conditions Arcing Transient phenomena Insulation, Interruption medium and Interrupter Design Air and Oil Vacuum and Sulphur hexafluoride (SF6) Circuit breaker Interrupters and operating mechanisms Interrupter principles and types Mechanisms Circuit breaker Types Dead Tank and Live Tank (AIS) Gas-Insulated Switchgear (GIS) Mixed Technology Switchgear (MTS) Capacitor and Reactor switching Capacitor switching; reactor switching Point on wave switching Circuit breaker Testing and Interpretation List of testing according standards Installation and commissioning maintenance, condition monitoring, Decommissioning Time based Condition based Monitoring devices Assignment Test results History and Future of Transmission switchgear Gain confidence in the correlation between High Voltage network parameters and the associated key switchgear parameters in the compilation of switchgear specifications 19/ Technical Training Manual

20 Basic HVDC Training Technical Fundamentals - 3 Days Management UNPTF011 Describe the development and fundamentals of the HVDC converter equipment Describe HVDC converter schemes equipment Introduction to HVDC HVDC Fundamentals HVDC Single Line Diagram Introduction to HVDC Thyristor Valves HVDC Thyristor Valve Components Harmonics and Filters Insulation Coordination Overview of Digital Studies Control and Protection of HVDC Systems HVDC Controls Station Civil Engineering Future Technologies in HVDC transmission and distribution engineers Prerequisites: Qualification and and/or experience in power electronics TRAINING: HVDC001 (100% Theoretical) NEXT STEP: S3200 Benefits and scope of HVDC transmission Awareness of HVDC technology and applications Technical understanding of HVDC equipment Scope of HVDC scheme specification Company with many years of experience in the area 20/ Technical Training Manual

21 Technical Fundamentals - Apps Industry power system Protection 5 Days UNPTF012 Gain a comprehensive understanding of the principles of selection and application of the most common types of protection found in distribution: MV/LV networks for Oil & Gas, Petroleum Company, steel, mining & metal industries Fault analysis tutorials Detailed over current grading/ co-ordination Pilot wire differential protection transformer protection Generator protection Motor protection Busbar protection Current transformer requirements for protective relaying ngineers/managers, who already have experience in protection principles, but want to expand/ update this knowledge in the area of distribution and generation power systems Prerequisites: Persons attending this course must have a reasonable Understanding of electrical theory TRAINING: PROG002 (100% Theoretical) NEXT STEP: PROG004 On completion of the course, trainees should have a sufficient understanding of the aspects of protection covered during the course to enable them to liaise confidently with specialist protection engineers concerning those subjects 21/ Technical Training Manual

22 APPS Utility System Protection Technical Fundamentals - 5 Days UNPTF013.1 Gain a comprehensive understanding of the principles of selection and application in the most common types of protection found in distribution, transmission and subtransmission power systems Fault analysis tutorials Detailed over current grading/ co-ordination Pilot wire differential protection transformer protection Distance protection Busbar protection Current transformer requirements for protective relaying Engineers/managers, who already have experience in protection principles, but want to expand/ update this knowledge in the area of generation, transmission and distribution power systems Prerequisites: Persons attending this course must have a reasonable nnderstanding of electrical theory TRAINING: PROG003 (100% Theoretical) NEXT STEP: PROG004 Upon completion of this course, sustain the success of your business by enhancing employee efficiency and morale Reinforce your company s expert knowledge Reduce your maintenance costs and down time Handle your system operations effectively in all situations Focus on distribution, transmission and sub-transmission power systems for our utility customers 22/ Technical Training Manual

23 Technical Fundamentals - APPS Part 2 Application of Protective Relaying to Transmission systems 1.5 Days UNPTF014.2 Address the principles of selection and application in the most common types of relay found in transmission systems Give presentations and worked examples on distance protection, busbar protection, auto-reclosing and system stability Engineers who wish to gain more experience in protection setting & application of transmission protection Prerequisites: PROG005, Reasonable understanding of electrical theory TRAINING: PROG006, (100% Theoretical) NEXT STEP: PROG007 Application principles and setting procedures of: distance protection, distance protection schemes Auto-reclose on Distribution Systems Auto-reclose on Transmission Systems System Stability Application principles and setting procedures of busbar protection Application examples and tutorials Upon completion of this course, sustain the success of your business by enhancing employee efficiency and morale Reinforce your company s expert knowledge Reduce your maintenance costs and down time Handle your system operations effectively in all situations Worked examples for better understanding 23/ Technical Training Manual

24 Technical Fundamentals - APPS Part 3 Over current Grading and Commissioning 4 Days UNPTF015.3 Analyze fault and grade over current Teach Basic commissioning techniques Test over current, differential, motor, generator and distance protection relays Delegates who require more tutorial time on fault calculations and application of over current relays, together with knowledge of basic relay testing Prerequisites: PROG005, Persons attending this course must have a reasonable understanding of electrical theory TRAINING: PROG007 (100% Theoretical) Fault analysis tutorials Detailed over current grading/ coordination tutorial Basic commissioning and maintenance techniques Hands-on testing of over current, differential, motor, generator and distance protection relays Upon completion of this course, sustain the success of your business by enhancing employee efficiency and morale Reinforce your company s expert knowledge Reduce your maintenance costs and down time Handle your system operations effectively in all situations 24/ Technical Training Manual

25 Technical Fundamentals - APPS T01 Introduction to the Protection Scheme Philosophy for MV and HV Networks 5 Days Management UNPTF016 Understand the protection schemes of industrial, distribution, generation or transmission electrical networks Understand digital control system for MV/HV substations Electrical network topology Electrical substation type & topology Basic principles of protection schemes Earthing mode/short circuit current and fault calculation Over current protection/directional Transformer protection Line protection Distance protection Differential protection Motor protection Generator protection Busbar protection Current transformers, voltage transformers Application examples for the specification of protection schemes Introduction to digital control system and commissioning engineers, especially those involved with protective relays Protection engineers, protection design engineers Project manager Prerequisites Knowledge and understanding of MV or HV electrical networks Electro technical and mathematical basis Technician or engineer level TRAINING: PROG012 (100% Theoretical) Upon completion of this course, sustain the success of your business by enhancing employee efficiency and morale Reinforce your company s expert knowledge The participants have increased understanding of protection principles used on industrial, distribution, generation or transmission system The participants gain the confidence to maintain their system 25/ Technical Training Manual

26 Technical Fundamentals - APPS Utility Transmission System Protection Basic 5 Days Management UNPTF017.1 Understand the key principles of protection in HV and EHV transmission networks Fundamental principles on protective relays use Fundamentals on protection principles Short circuit currents transformers and transformer feeders protection Line protection principles Distance protection Tele-action schemes Line differential protection and commissioning engineers, especially those involved with protective relays Protection engineers, protection design engineers Project manager Prerequisites Knowledge and understanding of HV and EHV transmission networks Electro technical and mathematical basis Technician or engineer level TRAINING: PROG013 (100% Theoretical) NEXT STEP: PROG014 Upon completion of this course, sustain the success of your business by enhancing employee efficiency and morale Reinforce your company s expert knowledge The participants gain increased understanding of protection principles needed to understand HV system requirements The participants gain the confidence to maintain their system 26/ Technical Training Manual

27 Technical Fundamentals - APPS - Utility Transmission System Protection Advanced 5 Days Management UNPTF017.2 Enhance the trainees knowledge and understanding of HV and EHV transmission network protection principles Topology and architecture of power transmission and distribution networks Advanced module on power transformer protection Specific applications for transmission system (breaker failure, recloser, check-synchro, power swing, fault locator, fuse detection, CT & VT supervision, trip circuit supervision) Busbar protection Busbar differential schemes Earthing systems Advanced module on short-circuit Currents and commissioning engineers, especially those involved with protective relays Protection engineers Protection design engineers Project managers Prerequisites: PROG013, Knowledge of HV and EHV transmission Networks Electro technical Mathematical basis Technician or engineer level TRAINING: PROG014 (100% Theoretical) NEXT STEP: PROG015 Upon completion of this course, sustain the success of your business by enhancing employee efficiency and morale Reinforce your company s expert knowledge The participants will attain a high level of understanding in HV/EHV system protection schemes The participants become able to realize an optimal specification of a protection scheme 27/ Technical Training Manual

28 Technical Fundamentals - APPS - Utility Transmission System Protection Expert 5 Days Management UNPTF017.3 Gain a global understanding of phenomena and constraints influencing HV and EHV transmission network protection Generator protection Selectivity, protection grading system stability, auto-reclose, load shedding Current Transformers & Voltage Transformers and commissioning engineers, especially those involved with protective relays Protection engineers Protection design engineers Project managers Prerequisites: PROG013, PROG014, Knowledge of HV and EHV transmission Networks Electro technical Mathematical basis Technician or engineer level TRAINING: PROG015, (100% Theoretical) Upon completion of this course, sustain the success of your business by enhancing employee efficiency and morale Set up expert knowledge in your company The participants reach an expert level on understanding and building HV/EHV system protection schemes The participants can realize an optimal specification of a protection scheme The participants learn how to put into practice the full benefits of a protection scheme 28/ Technical Training Manual

29 Network Essentials Technical Fundamentals - 5 Days Management UNPTF018 Describe the electrical power network or grid from the generation, transmission and distribution Gain further knowledge of each stage of the power flow and its components Gain in-depth knowledge of the electrical power system operations Cover the economic aspects of the electricity industry such as deregulation and trading Engineers who do not have a background in electrical engineering but are working, or are associated with, the electrical power industry Prerequisites: Basic knowledge of electricity and associated mathematics TRAINING: GEE003 (100% Theoretical) The growth of electric power systems in the industry Components of power systems Environmental impact of power systems Series of impedance of Transmission Capacitance of Transmission Lines Current and Voltage of Transmission Lines System modeling and network calculation Economic operations of power systems Automatic control System protection system stability and power quality Interconnection failures and blackouts Deregulation and power trading Upon completion of this course, managers are expected to be comfortably conversant in this industry and better equipped to make more informed decisions Staff members completing this course are expected to have the required knowledge to better contribute, be more informed and improve their contribution in the workplace 29/ Technical Training Manual

30 First Line system maintenance Technical Fundamentals - Customized Personnel in charge of maintenance and Maintenance engineers UNPTF019 Understand hardware architecture (EMS SCADA) Know how to do basic hardware troubleshooting Know how to do preventive system maintenance Do daily maintenance on hardware and software Prerequisites: Basic knowledge of computer science TRAINING: EMSG003 (50% Theoretical, 50% Practical) Architecture: Hardware (Tempo consulting) Software (OS ) (ARES) Network LAN/WAN Ghosting System and data back up Log activit Upon completion of this course, students will have a good understanding in the maintenance of an aspect of the EMS- SCADA System 30/ Technical Training Manual

31 Technical Fundamentals - Situation Awareness in Control Centers for Real-Time Operations of Systems and Markets UNPTF020 Cover the fundamentals of Situation Awareness Teach design strategies that can increase the level of overall knowledge operators have about network status and environmental or manmade hazards, in normal operation or on a crisis mode Give an overview of relevant EMS applications as well as how other Decision Support Systems (DSS) are used to improve Situation Awareness 2 Days Management Management and Staff who will benefit from having a high-level knowledge of situation awareness in control centers TRAINING: GEE006 (100% Theoretical) The basic concepts of Situation Awareness (SA) Techniques for measuring SA Application of SA techniques in system design Energy Management System applications for SA improvement Decision Support Systems (DSS) for SA improvement Defining requirements for designing utility control centers Requirements for control center visualization tools Emerging industry standards for SA Emerging technologies for improving SA Techniques for capturing operators undocumented knowledge Using captured knowledge in real-time decision making Examples of what some utilities are doing to improve SA This intensive course will provide participants with a solid understanding of the basics of Situation Awareness and key issues related to designing systems for situation awareness, as well as an overview of the tools and technologies for improving SA in control centers A review of the process used by utilities to define requirements for control center SA tools will also be discussed 31/ Technical Training Manual

32 Introduction to Smart Grid Technical Fundamentals - 2 Days Management UNPTF021 Gain insight on the current status of the Smart Grid: what it is and what it is not, its components, its challenges, and the opportunities it presents for our future. People interested in issues related to the Smart Grid. Prerequisites: Interest in learning about the Smart Grid. TRAINING: GEE008 (100% Theoretical) Historical context of today s grid Today s struggling grid What is the Smart Grid? Benefits of the Smart Grid Components of the envisioned Smart Grid Putting the components of the Smart Grid together Issues driving the progress of the Smart Grid Roadblocks to the Smart Grid Delivery of major Smart Grid components The current grid capacity and the future Smart Grid Alstom Grid s Smart Grid Solutions Gain insight into issues surrounding the current grid Understand major issues driving the Smart Grid and how it might affect an individual organization Know possible roadblocks of the Smart Grid Become knowledgeable about Smart Grid solutions 32/ Technical Training Manual

33 Control Center Architecture Technical Fundamentals - 2 Days Management UNPF022 List some regulation, technology, cultural, and business changes that affect Alstom Grid customers Identify the equipment of a typical power system (generation, transmission, distribution assets) Describe the layout and function of a typical energy control center (GCC, TCC, DCC, and ECC) Describe the purpose of some e-terra solutions (e-terrascada, e- errageneration, e-terrahabitat, e-terraplatform ) and describe a simple conceptual architecture of a system delivered by Alstom Grid to customers (PDS, QAS, DTS, EMS, DMS, GMS) Employees who need a simple understanding of how the modern energy control center (ECC) operates, and how Alstom Grid e-terra solutions assist ECC operations Prerequisites: Some background reading is provided prior to classroom training TRAINING: GEE009 (100% Theoretical) Industry changes e-terra toolbox Electric utility control center today Production real-time data flow Production change deployment Change response Electric utility control center tomorrow Participants will increase their understanding of what the grid is, and how our customers manage its reliability Participants will increase their understanding of how Alstom Grid e-terra solutions help our customer 33/ Technical Training Manual

34 Telecommunications in a Network Technical Fundamentals - 1 Day UNPTF023 Give an exhaustive view of the different methods for exploiting historical data Presentation of operator s needs Constraints Telecom Solutions Telecom Network management Telecom Actual and future Services Telecom Network principles and Examples Personnel in charge of the operation or the maintenance, engineers and designers responsible for integrating this equipment in telecommunications networks Prerequisites: The participants need to have a background in the electrical Energy environment TRAINING: TEL013 (100% Theoretical) Upon completion of this course, managers will not only have attained a comprehensive view of telecom architectures in power networks but they also will have acquired the knowledge to differentiate the services that may be required and that can be supported within his/her organization 34/ Technical Training Manual

35 Transmission Equipment Transformer Technology, Features and Applications SF6 Gas Recovery Regulation SF6 Gas Recovery Regulation Transformers Operation & Maintenance On Load Tap Changers Operation & Maintenance Vertical-break, Center-break and Pantograph Disconnectors and Earthing Switches from 52 kv to 550 kv SF6 circuit breaker GL Type for high Voltages under 250 kv Operation & Maintenance SF6 circuit breaker GL Type for high Voltages over 250 kv Operation & Maintenance FKG2 SF6 generator Circuit breaker Operation & Maintenance FKG1 SF6 generator Circuit breaker Operation & Maintenance Gas-Insulated Switchgear F Type Maintenance & Breakdown Repair High Voltage test with PDUHF Measurement on Gas-Insulated switchgear

36 Transmission Equipment - Transformer Technology, Features and Applications 5 Hours Management UNPTE001 Understand the various transformer technologies related to substations Know how transformers step-up or step-down voltages, adjust network voltages Know the differences between transformer types People wishing to enhance their T&D working knowledge and especially to improve their technical understanding of transformers Prerequisites: T&D experience TRAINING: S3601 (100% Theoretical) NEXT STEP: S3200, S3300, A4213, C4242, C4532 Module 1: HV substations Arrangement with transformers Module 2: power transformers Principles Technologies Tap-changers Module 3: Role of Transformers within A power plant Main transformers Auxiliary transformers Module 4: Instrument transformers Current transformers Voltage transformers Module 5: Distribution transformers Oil-immersed type Dry types Cooling systems Available assessments Easy user navigation Various interactive learning activities Online dictionary on Transmission Exchanges with an experienced tutor Accessible training 24/7 Time saving, courses done at the trainee s own pace ed by experts To be used before and after classroom Session 36/ Technical Training Manual

37 Transmission Equipment - SF6 Gas Recovery Regulation EC (for inexperienced personnel) 3.5 Day UNPTE002.1 Know the general characteristics of SF6 gas Control its environmental impact, emissions and the greenhouse effect Use the SF6 gas in total safety Carry out the best practices related to the use of SF6 according to the equipment involved Understand the functions of equipment used for the recovery, control and measurement of SF6 gas Personnel who recover SF6 gas Prerequisites: Basic or no practical knowledge of SF6 handling, especially in the recovery and use of suitable PPE TRAINING: V0032 (30% Practical, 50% Theoretical, 20% Assessment) NEXT STEP All trainings related to SF6 Theoretical part Environment and SF6 Regulation EC Sulphur hexafluoride Electric components and SF6 Various qualities of SF6 SF6 design of electrical equipment Storage and transportation of SF6 Legal constraints Products of decomposition and neutralization Monitoring of gas and the environment Practical part Preparation of practical session on SF6 recovery Practical work on SF6 recovery and use of suitable PPE in a contaminated environment Assessment and certification Theoretical assessment Individual multiple choice questionnaire Practical work on SF6 recovery (individual exam) Control and measurement of gas to be recovered Practice of SF6 recovery using a recovery device Practice of SF6 recovery and decomposition products Note: A version of this course applied to the Non- European Regulation CEI/TR is also available. Please refer to course M111. Each trainee will work on real equipment Certification EC Course limited to 8 trainees for the training to be most effective and to ensure optimum safety on the shop floor 37/ Technical Training Manual

38 Transmission Equipment - SF6 Gas Recovery Regulation EC (for Experienced Personnel) 2 Days UNPTE002.2 Know the general characteristics of SF6 gas Control its environmental impact, emissions and the greenhouse effect Use SF6 gas in total safety Carry out the best practices related to the use of SF6 according to the equipment involved Understand the functions of equipment used for the recovery, control and measurement of SF6 gas Personnel who recover SF6 gas Prerequisites: Significant practical knowledge of SF6 handling, especially in the recovery and use of suitable PPE TRAINING: V0033 (20% Practical, 50% Theoretical, 30% Assessment) NEXT STEP: All trainings related to SF6l) Theoretical part Environment and SF6 Regulation EC Sulphur hexafluoride Electric components and SF6 Various qualities of SF6 SF6 design of electrical equipment Storage and transportation of SF6 Legal constraints Products of decomposition and neutralization Monitoring of gas and the environment Practical part Preparation of practical session on SF6 recovery Practical work on SF6 recovery and use of suitable PPE in a contaminated environment Assessment and certification Theoretical assessment Individual multiple choice questionnaire Practical work on SF6 recovery (individual exam) Control and measurement of gas to be recovered Practice of SF6 recovery using a recovery device Practice of SF6 recovery and decomposition products Note: A version of this course applied to the Non- European Regulation IEC/TR is also available. Please refer to course M111 Each trainee will work on real equipment Certification EC Course limited to 8 trainees for the training to be most effective and to ensure optimum safety on the shop floor 38/ Technical Training Manual

39 Transformers Operation & Maintenance Transmission Equipment Day UNPTE003 Understand power transformer technology Ensure the operation of transformers Ensure the appropriate test & evaluation of the results Ensure the appropriate Maintenance Theory, construction and operation Theory and operation Electric & magnetic field theory, Applications Over voltages and over currents withstands Construction Accessories Tank types, conservator types and dehydrating breathers Cooling modes Bushings OLTC, OCTC Other accessories Indicators, protections Indicators and relays Main tank & OLTC pressure devices Other protective devices (differential protection, restricted earth, tank protection ) Manufacturing process Transformer assembly process in factory Laboratory Tests Transportation, Erection & commissioning Transportation and delivery conditions Field preparations Controls & Tests according procedures Periodical controls, Tests & maintenance plan and inspection Electrical tests Oil quality tests DGA principles (removing oil leakages, bushing, radiator ) Analysis of tests and controls Protections & Troubleshooting Buchholz relay Other protective devices Transformer failures EMS maintenance engineers & Maintenance team Prerequisites: S3601 Basic knowledge in electricity and mechanics Electrical qualification TRAINING: C4233, C4532 (60% Practical, 40% Theoretical) NEXT STEP: C4233, C4532 Note: Practical work may differ, depending on the materials available on site and the time available for the chosen training. Please don t hesitate to contact us for more details your own convenience The participants should gain an increased level of knowledge in the design, O&M of transformers A broad technical understanding of what power transformers are today One year of access to S3601, e-learning training programs accessible 24/7 through our LMS (if required) 39/ Technical Training Manual

40 On Load Tap Changers Operation & Maintenance Transmission Equipment - 4 Days UNPTE004 Understand the OLTC technology Ensure the operation of transformers with OLTC Ensure the appropriate maintenance according to OLTC types Operating & Maintenance team Prerequisites: S3601, Basic knowledge in electricity and mechanics Electrical qualification TRAINING: C4532 (50% Practical, 50% Theoretical) NEXT STEP: (C4233, C4242, C4213) Description and operation of an on Load Tap changer The selector switch The diverter switch The motor drive unit Presentation and role of each mechanism Practical work & maintenance Remove the diverter switch (insert) from chamber Replacement of worn mechanical parts (springs etc.) /replacement of electrical contacts Measuring the transition resistors Cleaning devices Insert the diverter switch into chamber Filling with oil TTR measurements Adjusting the axis Electrical and mechanical locking control Protective Relay/pressure relay and PRV tests Note: Practical work may differ, depending on the materials available on site and the time available for the chosen training. Please don t hesitate to contact us for more details. The participants should gain from the course an increased level of knowledge in the design, O&M of OLTC A broad technical understanding of what power transformers with OLTC are today Practice in operation conditions Technical guarantee of contents One year of access to S3601, e-learning training programs accessible 24/7 through our LMS (if required) 40/ Technical Training Manual

41 Transmission Equipment - Vertical-break, Center-break & Pantograph Disconnectors & Earthing Switches from 52 kv to 550 kv UNPTE005 Become familiar with the design and operation of disconnectors and earthing switches, and with the associated motor and manual drives 1-3 Days personnel, foremen and supervisors, technicians and engineers who are responsible for the installation and operation of High Voltage switchgear Prerequisites: S3201, Fundamentals of electricity and mechanics TRAINING: M151/TIR058, (50% Practical, 50% Theoretical) Introduction to the product Design and operation of disconnectors and earthing switches: Conducting paths Base frames Linkages Design principle of the contact systems Design and operating principle of motor and manual drives On-site installation and commissioning safety instructions and procedures the maintenance concept including inspection and repair criteria and scheduling Tests Performance, analysis Measurement result Note: Practical work may differ, depending on the materials available on site and the time available for the chosen training. Please don t hesitate to contact us for more details. Immediate practice of the theoretical knowledge acquired Technical guarantee of contents 41/ Technical Training Manual

42 Transmission Equipment - SF6 circuit breaker GL Type for high Voltages under 250 kv Operation & Maintenance 2-3 Days UNPTE006.1 Apply the maintenance procedures of the GL Circuit breaker and the associated mechanism Carry out corrective maintenance in case of minor failure Apply the safety rules Technicians involved in the operation and maintenance of installations in High Voltage substations Prerequisites: S3201, TIR048, Fundamentals of electricity and mechanics TRAINING: V5642/M105/TIR049 (50% Practical, 50% Theoretical) NEXT STEP: V8142/M141 Sulphur hexafluoride SF6 Precautions and security, manipulation and recovery Breaking electrical phenomena Development of sf6 circuit breakers or with mixed gas Display steps of extinguishing in SF6 or SF6 CF4 Arc extinguishing Presentation of the sf6 circuit breakers GL Range GL, pole architecture, operating sequences of interrupting chamber Mechanical control mechanism FK General remarks, security provision Operating principle (kinematics, energy transfer) Breakdown repair methodology, interchangeability Maintenance and tooling for SF6 Circuit breakers GL plan, dedicated tooling for maintenance Wear measurements of contacts Mechanical control mechanism LV diagrams LV diagrams: special functions, possible options SF6 monitoring SF6 monitoring device, SF6 pressure variation curves In situ study of circuit breaker Technology of the poles on drawings, display of the subassemblies Study of control mechanisms and interrupting chamber (life-sized teaching tools) Practical work on circuit breakers and associated control mechanisms Note: Practical work may differ, depending on the materials available on site and the time available for the chosen training. Please don t hesitate to contact us for more details. Practice in operation conditions Immediate practice of the theoretical knowledge acquired Technical guarantee of contents 42/ Technical Training Manual

43 Transmission Equipment - SF6 circuit breaker GL Type for high Voltages over 250 kv Operation & Maintenance Days UNPTE006.2 Apply the maintenance procedures of the GL Circuit breaker and the associated mechanism Carry out corrective maintenance in case of minor failure Apply the safety rules Technicians involved in the operation and maintenance of installations in High Voltage substations Prerequisites: S3201, Fundamentals of electricity and mechanics TRAINING: V5442/M106/TIR055 (50% Practical, 50% Theoretical) NEXT STEP: V8142/M141/V8342/M142/V8343 Sulphur hexafluoride SF6 Precautions and security, manipulation and recovery Breaking electrical phenomena Development of SF6 circuit breakers or with mixed gas Display steps of extinguishing in SF6 or SF6 CF4 Arc extinguishing Presentation of the SF6 circuit breakers GL Range GL, pole architecture, operating sequences of interrupting chamber Mechanical control mechanism FK3 General remarks, security provision Operating principle (kinematics, energy transfer) Breakdown repair methodology, interchangeability Maintenance and tooling for SF6 Circuit breakers GL314 plan, dedicated tooling for maintenance Wear measurements of contacts Mechanical control mechanism LV diagrams LV diagrams: special functions, possible options SF6 monitoring SF6 monitoring device, SF6 pressure variation curves In situ study of circuit breaker Technology of the poles on drawings, display of the subassemblies Study of control mechanisms and interrupting chamber (life-sized teaching tools) Practical work on circuit breakers and associated control mechanisms Note: Practical work may differ, depending on the materials available on site and the time available for the chosen training. Please don t hesitate to contact us for more details Practice in operation conditions Immediate practice of the theoretical knowledge acquired Technical guarantee of contents 43/ Technical Training Manual

44 Transmission Equipment - FKG1 - SF6 generator Circuit breaker - Operation & Maintenance 4 Days UNPTE007.1 Understand the operation of generator Circuit breakers contextually Apply the maintenance procedures of the combined FKG1, SKG, MKG, IKG and the associated mechanisms Carry out corrective maintenance in case minor failure Apply the safety rules during the maintenance Technicians involved in the operation and maintenance on generator Circuit breakers up to 1000 MW per unit Prerequisites: S3201, Fundamentals of electricity, mechanics and hydraulics TRAINING: V9542 (50% Practical, 50% Theoretical) NEXT STEP: V8142/ M141 Sulphur hexafluoride SF6 Precautions and security, manipulation and recovery Breaking electrical phenomena Development of SF6 generator Circuit breakers Display steps of extinguishing in SF6 Arc extinguishing Presentation of the sf6 circuit breakers FKG1 Range FKG, pole architecture, operating sequences of interrupting chamber Associated SKG, MKG, IKG combination FK3.12 spring mechanism s Breakdown repair methodology Maintenance and tooling for SF6 circuit breakers FKG1 plan, dedicated tooling for maintenance Wear measurement of contacts Mechanical control mechanism LV diagrams LV diagrams: special functions, possible options SF6 monitoring SF6 monitoring device, density switch, SF6 pressure variation curves, filling valve Practical work on circuit breakers and control mechanisms Practice in operation conditions Immediate practice of the theoretical knowledge acquired Technical guarantee of contents 44/ Technical Training Manual

45 Transmission Equipment - FKG2 - SF6 generator Circuit breaker - Operation & Maintenance 3 Days UNPTE007.2 Understand the operation of combined generator Circuit breakers contextually Apply the maintenance procedures of the combined FKG2, SKG, MKG, IKG and the associated mechanisms Carry out corrective maintenance in case of minor failure Apply the safety rules during the maintenance Technicians involved in the operation and maintenance on generator Circuit breakers up to 200 MW per unit Prerequisites: S3201, Fundamentals of electricity and mechanics TRAINING: V9442, (50% Practical, 50% Theoretical) NEXT STEP: V8142/ M141 Sulphur hexafluoride SF6 Precautions and security, handling and recovery Breaking electrical phenomena Development of sf6 generator Circuit breakers Display steps of extinguishing in SF6 Arc extinguishing Presentation of the sf6 circuit breakers FKG2 Range FKG, pole architecture, operating sequences of interrupting chamber Mechanical control mechanism FK3-4 General remarks, security provision Operating principle (kinematics, energy transfer) Breakdown repair methodology, interchange ability Maintenance and tooling for SF6 Circuit breakers FKG2 plan, dedicated tooling for maintenance Wear measurement of contacts Mechanical control mechanism LV diagrams LV diagrams: special functions, possible options SF6 monitoring SF6 monitoring device, density switch, SF6 pressure variation curves filling valve Practical work on circuit breakers with associated control mechanisms Practice in operation conditions Immediate practice of the theoretical knowledge acquired Technical guarantee of contents 45/ Technical Training Manual

46 Transmission Equipment - Gas-Insulated Switchgear - F35-3/4/5 Type Maintenance & Breakdown Repair 3 Days team UNPTE008 Know the GIS F type, the maintenance philosophy and corresponding procedures Gain practical experience on different maintenance operations Prerequisites: S3202, Basic knowledge in electricity and mechanics Normal experience in HV switchgear TRAINING: TIOE002 (50% Practical, 50% Theoretical) NEXT STEP: X8142/ M143 Sulphur hexafluoride SF6 Concept of a substation in a metal enclosure F type Electrical phenomena related to breaking Switchgear technology F type Gas module service F type Compartments preparation and SF6 filling for apparatus F type FK, FKF spring mechanism FKF 3 spring mechanism High Voltage tests for apparatus F type SF6 practical works F type Apparatus maintenance F type Operating mechanism maintenance for apparatus F type Manufacturer maintenance schedule for apparatus F type Works repair for apparatus F type Practice in operation conditions Immediate practice of the theoretical knowledge acquired Technical guarantee of contents 46/ Technical Training Manual

47 Transmission Equipment - High Voltage test with PD/ UHF Measurement on Gas- Insulated switchgear 5 Days Management UNPTE009 Know the HV Testing of GIS: Procedure & Standards Know the safety instructions and procedures Be able to choose the correct test equipment Know the interfaces between HV Test Equipment and GIS Get practice on UHF/PD Measurements Engineering background, Sound knowledge in electricity Prerequisites: Practical knowledge in installation, commissioning and operation of HV switchgear TRAINING: TIOE008 (40% Practical, 60% Theoretical) Standards PD measurement techniques UHF detection method Voltage withstand test General procedure & Safety instructions Test at industrial frequency Determination of Test Voltages Overview of the available HV test equipment, its function and installation Switching and Voltage Injection as per procedure Practical exercise Generation/Stimulation of different fault conditions inside a GIS Localization of partial discharge Study the different PD Patterns Documentation and record of values Analysis of the test and measurement results Practice in operation conditions Immediate practice of the theoretical knowledge acquired Technical guarantee of contents Maximum of 5 participants per session to be most effective and to ensure safety 47/ Technical Training Manual

48 Protection - System Training 4.01 Protection of industrial installations 4.02 Railway Protection 4.03 Advanced Digital Control System 4.04 Basic principles of Digital Control System 4.05 Application on IEC Communication Protocol

49 Protection - System Training - Protection of industrial installations 4 Days UNPPST001 Analyze the faults that may occur on such an installation Estimate the value of the short circuit currents Define the main protection systems and their settings The distribution network Transformer substation, short circuit capacity Industrial networks Delivery substation, different structures, different power sources Influence of capacitive currents Neutral points connections Network Faults Roles and qualities of protection systems Estimation of short circuit currents The source is a transformer: three-phase or two-phase short circuit The source is a generator set: three-phase or two-phase, short- circuit phase protection plan Definition and settings of protection systems selectivity diagram Earth protection plan Definition and settings of protection systems selectivity diagram Protection of power transformers main protections of motors. Protection relays ranges case study Engineers and technicians involved in the design, study testing, maintenance and operation of protection systems for electrical protection systems for MV installations Prerequisites: A2112, Qualified technician, 2 years technological diploma or completion TRAINING: D2102 (40% Practical and case study, 60% Theoretical) Customized solutions Handling of protection relays Use of current injection device for tests and simulations 49/ Technical Training Manual

50 Protection - System Training - Railway Protection 3 Days UNPPST002 Teach the principles and application of railway protection Requirements for stream and tension converter for protection applications Basics of over current applications Basic transformer-differential protection for feeder lines Basic distance protection facilities for overhead line arrangements Operating draft and operating programs Over current protection mechanisms HP 492, MiCOM P138 Transformer protection facilities PQ 792, MiCOM P638 Overhead line protection facilities PD 591, MiCOM P436/ P438 Practical exercises with test facilities as well as settings about PC/notebook Exercises for the case evaluation with operating programs Engineers involved in the protection of railway electricity Technicians and engineers from application or control departments, project managers, technicians or operators Prerequisites: Basic principles of power system protection TRAINING: PROP006 (30% Theoretical, 70% Practical) The participants will have a thorough knowledge of maintaining their protection system Participants will increase their fault finding and troubleshooting abilities for the protection system, thus reducing plant shutdown 50/ Technical Training Manual

51 Protection - System Training - Advanced Digital Control System 3 Days Management UNPPST003 Gain a deeper understanding of the relevance and impact of substation control, of protection and the functions of distant control Cover project engineering for a digital control system and hands-on practical experience using PACiS Learn the basic principles of digital control system Engineers and managers working and making decisions in the substation control system environment that need deeper knowledge on either their operational needs or decision making Prerequisites: General knowledge of substation control systems TRAINING: SCS001 (20% Practical, 80% Theoretical) Choice of system components Operating level, operating surfaces, operating hierarchy Construction of communication structures Construction of systems Project engineering and service tools, construction and application Expiry and winding-up of a project Case examples/exercises with PACiS Participants will gain an in-depth knowledge of operational needs for digital control systems Staff members completing this course are expected to be able to improve their contribution and be more informed in the workplace Managers completing this course are expected to be comfortably conversant with the system, project engineering and be better equipped to make more informed decisions 51/ Technical Training Manual

52 Protection - System Training - Basic principles of Digital Control System 2 Days Management UNPPST004 Give an overview of the architecture and the task setting within the digital control system environment Show the relevance and impact of control and protection and the functions of distant control Teach electrical Energy Essentials Substation control system engineers, decision-making managers in substation control systems Prerequisites: Basic understanding of electricity TRAINING: SCS002 (100% Theoretical - incl. demonstration) NEXT STEP: SCS010 Application features, system structure Components at field level Components at station level Communications overview Leading-engineering functions This session is a good introduction to Digital Control System. It provides the knowledge necessary to understand its advantages and application You will be able to choose the most appropriate solution for your needs and scale it in terms of function, architecture and services 52/ Technical Training Manual

53 Protection - System Training - Application on IEC Communication Protocol 2.5 Days UNPPST005 Explain how to move from the pages of the IEC standard to real substation automation projects Explain the key concepts and jargon of the standard Highlight what is not defined for a real project and discuss applications through real products and projects End users and system integrators who want to specify and/ or follow-up a IEC project System architects and consultants who want to understand future evolutions of the substation and network automation applications. Prerequisites: Substation environment, protection and control current applications TRAINING: SCS003 (100% Theoretical) NEXT STEP: SCS010 IEC From paper to Business Overview IEC concepts Services Modeling Substation configuration language Conformance tests Going for real projects Architectures Distributed functions Retrofit cases System configuration Interoperability tests Project management Participants will have a thorough knowledge in IEC Standards to substation Automation projects End users and System integrators will know about specifications and have the required knowledge to improve project follow-ups The System Architects & Consultants are expected to have gained a better understanding of future evolutions of the substation Automation applications Training on the PACiS system is interesting since it is structured under IEC protocol 53/ Technical Training Manual

54 Network Management 5.01 SCADA and Alarm Features 5.02 Managing high Availability Systems 5.03 Alarm modeling for Real-time operations 5.04 Building a SCADA model 5.05 Building a Network Model 5.06 Building a Generation Model 5.07 Building a DTS Model 5.08 Building a Substation 5.09 Network Analysis 5.10 Network Optimization 5.11 Network Application Features 5.12 Generation Application Features 5.13 Protocol Analysis 5.14 Historical Data Management 5.15 Ems Database and Display Maintenance 5.16 Data Acquisition through the Telecommunications Network

55 Network Management - SCADA and Alarm Features 3 Day UNPNM001 Teach how the SCADA system processes and displays measurements, controls, and alarms on the monitored system A presentation of SCADA related applications: Alarm Management, Historical Data Recording, Tagging, Load Shed SCADA system functions, including processing of Data acquisition, evaluating data quality SCADA Alarms, Status and analog measurements, Pulse accumulators, Custom calculations on data SCADA databases If the teaching site has the Alstom Grid DTS demonstration system running, the course includes student practice in using real-time SCADA and Alarm features Programmers and operations personnel who use or build and maintain displays, databases and alarms for their SCADA system will benefit from this course For engineers, we would recommend Building a SCADA Model EMSP004 instead Prerequisites: EMSP017\ EMSP012 TRAINING: EMSP038 (20% Practical, 80% Theoretical) Students will be able to use SCADA on an operational level and will also understand the breadth of optional features available in SCADA and Alarm Components. The management of the SCADA database is not an objective of this course 55/ Technical Training Manual